Extinction risk from climate change

C.D. Thomas; Alison Cameron; R.E. Green; B. Bakkenes; L.J. Beaumont; Y.C. Collingham; B.F.N. Erasmus; M. Ferriera De Siqueira; A. Grainger; L. Hannah; L. Hughes; B. Huntley; A.S. Van Jaarsveld; G.F. Midgley; L. Miles; M.A. Ortega-Huerta; A.T. Peterson; O.L. Phillips; S.E. Williams

doi:10.1038/nature02121

Extinction risk from climate change

C.D. Thomas
, Alison Cameron
, R.E. Green
, B. Bakkenes
, L.J. Beaumont
, Y.C. Collingham
, B.F.N. Erasmus
, M. Ferriera De Siqueira
, A. Grainger
, L. Hannah
, L. Hughes
, B. Huntley
, A.S. Van Jaarsveld
, G.F. Midgley
, L. Miles
, M.A. Ortega-Huerta
, A.T. Peterson
, O.L. Phillips
, S.E. Williams

University of Leeds

Research output: Contribution to journal › Article › peer-review

Abstract

Climate change over the past ,30 years has produced numerous shifts in the distributions and abundances of species1,2 and has been implicated in one species-level extinction3. Using projections of species’ distributions for future climate scenarios, we assess extinction risks for sample regions that cover some 20% of the Earth’s terrestrial surface. Exploring three approaches in which the estimated probability of extinction shows a powerlaw relationship with geographical range size, we predict, on the basis of mid-range climate-warming scenarios for 2050, that 15–37% of species in our sample of regions and taxa will be ‘committed to extinction’. When the average of the three methods and two dispersal scenarios is taken, minimal climate-warming scenarios produce lower projections of species committed to extinction (,18%) than mid-range (,24%) and maximum change (,35%) scenarios. These estimates show the importance of rapid implementation of technologies to decrease greenhouse

Original language	English
Pages (from-to)	145-148
Number of pages	4
Journal	Nature
Volume	427
Issue number	6970
DOIs	https://doi.org/10.1038/nature02121
Publication status	Published - 8 Feb 2004
Externally published	Yes

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 13 Climate Action
SDG 15 Life on Land

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Thomas, C. D., Cameron, A., Green, R. E., Bakkenes, B., Beaumont, L. J., Collingham, Y. C., Erasmus, B. F. N., Ferriera De Siqueira, M., Grainger, A., Hannah, L., Hughes, L., Huntley, B., Van Jaarsveld, A. S., Midgley, G. F., Miles, L., Ortega-Huerta, M. A., Peterson, A. T., Phillips, O. L., & Williams, S. E. (2004). Extinction risk from climate change. Nature, 427(6970), 145-148. https://doi.org/10.1038/nature02121

@article{0d148ca10ea649d181d10036f5ab40b6,

title = "Extinction risk from climate change",

abstract = "Climate change over the past ,30 years has produced numerous shifts in the distributions and abundances of species1,2 and has been implicated in one species-level extinction3. Using projections of species{\textquoteright} distributions for future climate scenarios, we assess extinction risks for sample regions that cover some 20\% of the Earth{\textquoteright}s terrestrial surface. Exploring three approaches in which the estimated probability of extinction shows a powerlaw relationship with geographical range size, we predict, on the basis of mid-range climate-warming scenarios for 2050, that 15–37\% of species in our sample of regions and taxa will be {\textquoteleft}committed to extinction{\textquoteright}. When the average of the three methods and two dispersal scenarios is taken, minimal climate-warming scenarios produce lower projections of species committed to extinction (,18\%) than mid-range (,24\%) and maximum change (,35\%) scenarios. These estimates show the importance of rapid implementation of technologies to decrease greenhouse",

author = "C.D. Thomas and Alison Cameron and R.E. Green and B. Bakkenes and L.J. Beaumont and Y.C. Collingham and B.F.N. Erasmus and \{Ferriera De Siqueira\}, M. and A. Grainger and L. Hannah and L. Hughes and B. Huntley and \{Van Jaarsveld\}, A.S. and G.F. Midgley and L. Miles and M.A. Ortega-Huerta and A.T. Peterson and O.L. Phillips and S.E. Williams",

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doi = "10.1038/nature02121",

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Thomas, CD, Cameron, A, Green, RE, Bakkenes, B, Beaumont, LJ, Collingham, YC, Erasmus, BFN, Ferriera De Siqueira, M, Grainger, A, Hannah, L, Hughes, L, Huntley, B, Van Jaarsveld, AS, Midgley, GF, Miles, L, Ortega-Huerta, MA, Peterson, AT, Phillips, OL & Williams, SE 2004, 'Extinction risk from climate change', Nature, vol. 427, no. 6970, pp. 145-148. https://doi.org/10.1038/nature02121

TY - JOUR

T1 - Extinction risk from climate change

AU - Thomas, C.D.

AU - Cameron, Alison

AU - Green, R.E.

AU - Bakkenes, B.

AU - Beaumont, L.J.

AU - Collingham, Y.C.

AU - Erasmus, B.F.N.

AU - Ferriera De Siqueira, M.

AU - Grainger, A.

AU - Hannah, L.

AU - Hughes, L.

AU - Huntley, B.

AU - Van Jaarsveld, A.S.

AU - Midgley, G.F.

AU - Miles, L.

AU - Ortega-Huerta, M.A.

AU - Peterson, A.T.

AU - Phillips, O.L.

AU - Williams, S.E.

PY - 2004/2/8

Y1 - 2004/2/8

N2 - Climate change over the past ,30 years has produced numerous shifts in the distributions and abundances of species1,2 and has been implicated in one species-level extinction3. Using projections of species’ distributions for future climate scenarios, we assess extinction risks for sample regions that cover some 20% of the Earth’s terrestrial surface. Exploring three approaches in which the estimated probability of extinction shows a powerlaw relationship with geographical range size, we predict, on the basis of mid-range climate-warming scenarios for 2050, that 15–37% of species in our sample of regions and taxa will be ‘committed to extinction’. When the average of the three methods and two dispersal scenarios is taken, minimal climate-warming scenarios produce lower projections of species committed to extinction (,18%) than mid-range (,24%) and maximum change (,35%) scenarios. These estimates show the importance of rapid implementation of technologies to decrease greenhouse

AB - Climate change over the past ,30 years has produced numerous shifts in the distributions and abundances of species1,2 and has been implicated in one species-level extinction3. Using projections of species’ distributions for future climate scenarios, we assess extinction risks for sample regions that cover some 20% of the Earth’s terrestrial surface. Exploring three approaches in which the estimated probability of extinction shows a powerlaw relationship with geographical range size, we predict, on the basis of mid-range climate-warming scenarios for 2050, that 15–37% of species in our sample of regions and taxa will be ‘committed to extinction’. When the average of the three methods and two dispersal scenarios is taken, minimal climate-warming scenarios produce lower projections of species committed to extinction (,18%) than mid-range (,24%) and maximum change (,35%) scenarios. These estimates show the importance of rapid implementation of technologies to decrease greenhouse

U2 - 10.1038/nature02121

DO - 10.1038/nature02121

M3 - Article

SN - 0028-0836

VL - 427

SP - 145

EP - 148

JO - Nature

JF - Nature

IS - 6970

ER -

Extinction risk from climate change

Abstract

UN SDGs

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